Localization process system

ABSTRACT

There is disclosed apparatuses and methods for a localized process system. The apparatuses and methods include a server for authenticating a user login for a localized process system; presenting a user with a project, comprising an asset, wherein the project is a movie, and wherein the asset is created for an original geographical territory; presenting a user with a display to order a localized version of the asset, wherein the localized version of the asset is a version of the asset that is customized for a second geographical territory that is different than the original geographical territory; receiving user input to create subtitles for the localized version of the asset, wherein the user selects himself to enter the subtitles; presenting the user with a display of a timed-text script that displays a time of the asset, and the dialogue of the asset.

RELATED APPLICATION INFORMATION

This patent claims priority from the following provisional patentapplications: U.S. Application No. 61/883,145, titled, “SubtitleManagement System” and filed on Sep. 26, 2013.

NOTICE OF COPYRIGHTS AND TRADE DRESS

A portion of the disclosure of this patent document contains materialwhich is subject to copyright protection. This patent document may showand/or describe matter which is or may become trade dress of the owner.The copyright and trade dress owner has no objection to the facsimilereproduction by anyone of the patent disclosure as it appears in thePatent and Trademark Office patent files or records, but otherwisereserves all copyright and trade dress rights whatsoever.

BACKGROUND

1 . Field

This disclosure relates to a system to send and receive multimedia filesvia HTTP for purposes of generating automated localized audiovisualmaterial with real time preview. The system can generate a customizedand localized version of a multimedia file.

2 . Description of the Related Art

Entertainment studios around the world release new media projects on adaily basis. These media projects include songs, movies, documentaries,TV shows, short films, trailers, featurettes, sound bites, teasers,feature films, commercials, film clips, red carpet interviews, featurefilm interviews, and digital billboards. Typically, these media projectsare released in a certain language and have narration and graphics thatare suitable for the chosen language of the project.

With the advancements in technology and the wide variety of mediaprojects available online and accessible anywhere in the world, there isa desire to distribute these media projects quickly and efficiently invarious languages, either by adding subtitles to the media project, orby modifying the dialogue of the media project. In addition, as viewersnow are able to watch these media projects in various mediums, there isa need to provide these media projects in various usage formats,including broadcast, online, theatrical, educational and cross-media.The media projects originally released will need to be encoded based onthe medium that the project will be used in.

Modifying each new media project released to create versions to supportvarious regions and languages is a large task. Prior art systemsrequired a user to manually modify the project into another language.However, such systems create a bottleneck because it is dependent onwhen the manual process of updating the project is completed.

As a result, there is a need for a system to facilitate the process ofcreating new versions of media projects which may need to be encodedinto various formats and which support various regions and variouslanguages, either through translations or subtitles into the desiredlanguages.

DESCRIPTION OF THE DRAWINGS

FIG. 1 is a block diagram of an environment for a localization processsystem.

FIG. 2 is a block diagram of a computing device.

FIG. 3 is a block diagram for a localization process system.

FIG. 4 is a flowchart of a process performed by a localization processsystem.

FIG. 5 is a flowchart of a process performed by a localization processsystem.

FIG. 6 is an example of a display for a localization process system.

FIG. 7 is an example of a display for a localization process system.

Throughout this description, elements appearing in figures are assignedthree-digit reference designators, where the most significant digit isthe figure number where the element is introduced, and the two leastsignificant digits are specific to the element. An element that is notdescribed in conjunction with a figure may be presumed to have the samecharacteristics and function as a previously-described element havingthe same reference designator.

DETAILED DESCRIPTION

Description of Apparatus

Referring now to FIG. 1, there is shown a block diagram of anenvironment 100 for a localization process system. The environmentincludes 100 includes client systems 110, 120 and 130, and a serversystem 140. The client systems 110, 120 and 130 are operated by a user,not shown. The environment 100 may be implemented using distributedcomputing and interconnected by a network 150. The client systems 110,120, and 130 are shown as computers, smartphones, and tablets. However,the client systems can include any similar devices that may be used by auser to access the server 140 in order to use the localization processsystem. Each of the client systems 110, 120 and 130 and the serversystem 140 are computing devices described below with reference to FIG.2.

The client systems 110, 120 and 130 are used by users who desire to viewvarious media projects that are available to them. In addition, usersuse the client systems to view notifications regarding the projects theysubscribe to. Further, users use the client systems to order localizedversions of various projects. The “user” is the person or entityinteracting with the system to upload projects, view projects, reviewnotifications relating to projects, modify content in the projects, andorder new versions of projects, which may include subtitles ortranslations into a language not supported in the original version ofthe project.

A “project” is a media project, such as a movie, owned by a studio, or auser of the system. Each project may consist of various “assets” ofvarying types, such as trailers, music songs, music videos, movies,documentaries, audio books, trailers, teasers, sound bites andfeaturettes. An “asset” is a component of a project. An asset maycomprise one or many files. For example, a project may be a movie suchas Movie A. That project may comprise numerous assets, includingtrailers, teasers, sound bites and featurettes. These assets may betexted or textless. “Texted” is an asset with text graphics overlaid onthe asset. “Textless” is an asset that does not include any textgraphics overlaid on the asset. These assets may further be separated byTerritory. For example, if a project has an asset that is a trailer fora feature film, there may be multiple assets for different parts of theworld. There are various types of assets. For example, a trailer is verydifferent from a sound bite and as such, each of those assets wouldinclude different metadata that may be utilized when modifying theassets into a new language for a viewer.

The client systems 110, 120 and 130 may include software and/or hardwarefor providing functionality and features described herein. A clientsystem may therefore include one or more of: logic arrays, memories,analog circuits, digital circuits, software, firmware, and processorssuch as microprocessors, field programmable gate arrays (FPGAs),application specific integrated circuits (ASICs), programmable logicdevices (PLDs) and programmable logic arrays (PLAs). The hardware andfirmware components of the client systems 110, 120 and 130 may includevarious specialized units, circuits, software and interfaces forproviding the functionality and features described here. The processes,functionality and features may be embodied in whole or in part insoftware which operates on a client computer and may be in the form offirmware, an application program, an applet (e.g., a Java applet), abrowser plug-in, a COM object, a dynamic linked library (DLL), a script,one or more subroutines, or an operating system component or service.The hardware and software and their functions may be distributed suchthat some components are performed by a client computer and others byother devices.

The network 150 may be or include a local area network, a wide areanetwork, wireless networks and the Internet. The network 150interconnects the client systems 110, 120 and 130 and the server system140. The network 150 enables communication of data between the variousinterconnected elements. The network 150 may provide access toadditional, outside services such as an Internet-based escrow service.

Turning now to FIG. 2, there is shown a block diagram of a computingdevice 200, which is representative of the client systems 110, 120, 130and the server system 140, as seen in FIG. 1. The computing device 200may include software and/or hardware for providing functionality andfeatures described herein. The computing device 200 may thereforeinclude one or more of: logic arrays, memories, analog circuits, digitalcircuits, software, firmware and processors. The hardware and firmwarecomponents of the computing device 200 may include various specializedunits, circuits, software and interfaces for providing the functionalityand features described herein.

The computing device 200 has a processor 212 coupled to a memory 214,storage 218, a network interface 216 and an I/O interface 220. Theprocessor 212 may be or include one or more microprocessors, fieldprogrammable gate arrays (FPGAs), application specific integratedcircuits (ASICs), programmable logic devices (PLDs) and programmablelogic arrays (PLAs).

The memory 214 may be or include RAM, ROM, DRAM, SRAM and MRAM, and mayinclude firmware, such as static data or fixed instructions, BIOS,system functions, configuration data, and other routines used during theoperation of the computing device 200 and processor 212. The memory 214also provides a storage area for data and instructions associated withapplications and data handled by the processor 212.

The storage 218 provides non-volatile, bulk or long term storage of dataor instructions in the computing device 200. The storage 218 may takethe form of a magnetic or solid state disk, tape, CD, DVD, or otherreasonably high capacity addressable or serial storage medium. Multiplestorage devices may be provided or available to the computing device200. Some of these storage devices may be external to the computingdevice 200, such as network storage or cloud-based storage. As usedherein, the term storage medium corresponds to the storage 218 and doesnot include transitory media such as signals or waveforms. In somecases, such as those involving solid state memory devices, the memory214 and storage 218 may be a single device.

The network interface 216 includes an interface to a network such asnetwork 150 (FIG. 1).

The I/O interface 220 interfaces the processor 212 to peripherals (notshown) such as displays, keyboards and USB devices.

Turning to FIG. 3, there is shown a block diagram for a localizationprocess system. The system 300 comprises a server 340 and a client 310,such as server 140 and client 110 in FIG. 1.

The server 340 comprises an authentication engine 341, a web server 342,a database server 343, a viewing engine 344, an importer engine 345 andan ordering assets engine 346.

The authentication engine 341 comprises functionality to authenticate auser before providing access to the localization process system to theuser. The projects accessible through the localization process systemare typically media projects that are owned by various entertainmentcompanies. As a result, it is of primary importance that thelocalization process system only permit access to users who have beenauthenticated and verified as authentic users of the subtitle managementsystem.

The localization process system 341 may utilize various methods forauthenticating a user. Before a user can be authenticated on the system,the user first needs to create an account on the system. The system mayinclude various ways for a user to create an account. For example, auser could obtain an account by visiting the localization processsystem, and registering for a new account. When registering for a newaccount, the user may be required to provide an email address, a fullname and a password. The system will then review the user's domain andsend a request for approval to the administrator for that domain. Forexample, if a user was registering an @MovieStudioA domain, an approvalmight first be sent to the administrator at Movie Studio A who ismonitoring the group members on the system. Alternatively, a new usermay be added to the system when an existing user of the system shares aproject or asset with another user who is not registered on the system.The user not yet registered on the system may receive an emailrequesting the user to register and then the user will have access tothe shared project or asset from the existing user. Finally, a user maybe added to the system by receiving an invitation from an administrator.For example, the administrator of the Movie Studio A group members, mayinvite additional users to the system who have not yet registered on thesystem. The system may impose restrictions on the user's access on thesystem. For example, a user may only be permitted to view certain assetsor projects. Similarly, a user may be permitted to edit an asset.

Once a user has registered on the system, the user can use his accountcredentials on the system to view projects or assets that the user hassubscribed to based on the user's permissions. However, before the usercan view the projects on the system, the user must be authenticated bythe authentication engine 341.

The authentication engine 341 may use tokens to verify the user. When auser authenticates with the system, the system may generate a token forthe session, and that token will be resubmitted with each request.Tokens may allow a user to view projects without having to resubmittheir username and password. The tokens may be configured to expireafter a set time period, thereby preventing another user to steal atoken from an existing user. If a user's token expires or is canceled,the user will receive an error message and will then be asked by thesystem to generate a new token. After a user successfully logs onto asystem, the system may present projects or assets to the users based onthe group that the user belongs to. For example, if the user was on theMovie Studio A domain, the administrator may configure the user'saccount to provide permissions to view projects, but not to shareprojects. The administrator also may configure global permissions whichwill cause all of the members in the group to have the same access asothers in the group.

The server 340 may also comprise a web server 342 and a database server343. The server 340 is shown as a single server incorporating a databaseserver 343 and a web server 342. The server 340 may actually be a numberof interrelated servers and computing resources. In this way, thedatabase server 343 may be a stand-alone server separate and apart fromthe web server 342. The database server 343 and web server 342 may alsobe made up of a number of physical servers, each logically linked andoperating in concert. The database server 343 may store the files forthe projects and assets. Alternatively, the database server 343 maystore links to the locations for the project and asset files, which mayreside on another server. The server 340, however physically configured,is responsible for accessing the database server 343 databases tothereby provide the web server 342 with information to fill web pagesserved to the client 310. These databases may contain informationrelated to the various assets that comprise a project, each user on thesystem and the projects they have permission to view and access, a listof orders placed on the system for localized versions of a project, andother related information necessary for the system.

The server 340 may also comprise a viewing engine 344. The viewingengine 344 provides functionality to allow users to view and monitorprojects or assets on the system. Once a user has been authenticated andpermitted access to the system, the user may access projects or assetsto view. In addition, the user may have access to filter the assets fora project based on the asset type. For example, if the user only wantedto see the list of trailers for a movie, then the user could filterbased on the asset type. In addition to viewing projects, the viewingengine 344 may also allow the user to share projects with other users ofthe system, or with users who have not yet registered with the system.

The viewing engine 344 may also provide users the ability to view anynotifications from the system with respect to the projects and assetsthat the user has permission to access. Examples of notifications fromthe system include, a notification that an asset or project has beenshared with the user, a notification that notes were added to an asset,a notification that an embargo for a project was lifted, a notificationthat files are awaiting to be downloaded, a notification that a newasset is added to a project, a notification that an existing file isoverwritten by a new version, a notification that a vendor creates orsends a work request to an entertainment company, and a notificationthat a work request is marked as completed by an entertainment company.When a user logs into the system, the user may see that there arenotifications pending. The user then may select the notifications, andthen may be able to view all of the pending notifications.

The viewing engine 344 may also allow a user to receive pushed mediafiles, or projects. If an administrator wants to push a project to auser, then the administrator may use an interface to push various typesof assets to the user. When the user logs into the system, the user mayreceive a notification that a new project has been pushed to hisaccount. The user may then select to download the project to the clientsystem.

The server 340 may also comprise an importer engine 345. The importerengine 345 provides the functionality to allow projects and assets to beimported into the platform. For example, a user may use the importerengine to upload an asset, such as a movie trailer, to a project alreadyexisting on the system. In addition, a user may use the importer engineto upload an asset, such as a red carpet interview, to a project thatalready exists on the system. After projects and assets have beenimported into the system, users can use the system to view the projectsand assets, modify the assets, or order new localized versions of aproject or asset. FIG. 4, which will be discussed subsequently, providesa flowchart of the importer engine 345.

The server may also comprise an ordering assets engine 346. The orderingassets engine 346 provides the functionality to allow users to orderlocalized versions of a project or asset. After a user orders a projector asset, the user may be provided with an interface to pay for thelocalized version. After the user completes paying for the order, theuser may be informed through email that the localized version of theproject or asset is ready. FIG. 6, which will be discussed subsequently,provides a flowchart of the ordering assets engine 346.

The client 310 comprises a user interface 311, a web browser 312, and anemail client 313. A user 330 interacts with the localization processsystem 300 via the user interface 311 on the client 310. The client 310includes a web browser 312 and an email client 313. The client 310incorporates a web browser 312 for accessing web pages served by the webserver 343. The client 310 also includes an email client 313 for receiptof emails from the server 340 regarding access to new projects or ordersfor localized versions of the projects or assets.

Description of Processes

Referring now to FIG. 4, a flowchart of a process performed by animporter engine, such as importer engine 345 in FIG. 3, is shown. Theflowchart 400 has both a start 405 and an end 495, but the process iscyclical in nature. The importer engine typically adds new projects orassets to the system by allowing users to import new projects or assetsto the system.

The process 400 begins at 410, wherein the system determines if newfiles exist in the system. The localization process system may have abackground process that monitors to determine if a user has placed newfiles, for an asset or project, into the system. The background processmay check a certain defined storage area on the system every second todetermine if a new file exists on the system. If a user has placed a newfile into the system, the system will determine such when the processscans the system. The system may determine that a new file exists by adefined storage area on the server.

The file may have a certain naming convention that will help the systemto identify a project that the file should be associated with. Forexample, the filename may have a three character identification for theproject, such as MVA for “Movie A.” In addition, the filename may statethe type of asset it is. For example, if it is a featurette, thefilename may include the word “featurette.” Similarly, if the asset is afilm clip. The name, “film clip”, or an abbreviation, may be included inthe filename. The filename may also include the title of the work, therunning time, a language code, a text type, a custom tag, a version, acodec, an encode name and a file type extension. An example of alanguage code may be “ENG” for English, or “BPO” for BrazilianPortuguese, or CSP for Castilian, GER for German, ITA for Italian, JPNfor Japanese, KOR for Korean, LAS for Latin American Spanish, MAN-TW forMandarin for Taiwan, PFT for French—Parisian, SWE for Swedish. Inaddition, the language code may include territory specific identifiers.Examples of territory specific identifiers include LAS-AR for LatinAmerican Spanish for Argentina, GER-AT for German for Austria, ENG-AUfor English for Australia, ENG-ZA for English for South Africa, ARA-PFRfor a dual Arabic/French Subtitled version. An example of a text type isSUB for subtitled, DUB for dubbed, TXTD for texted and TXTL fortextless. Examples of a custom tag may include descriptions such as “Nowin Theaters.” Examples of codecs include ANIM for animation, DVCPRO, FLVfor Flash Video, H264, MP3 and MPEG-2 . Examples of encode names mayinclude NTSC, PAL or the high-definition video modes including 1080p.

Next, the system will add the file to an import queue at 415. The importqueue is a data structure that may be stored in the storage area on thesystem, and which is used to store new files added to the system, buthave not been approved by the system yet. The new media files maycomprise metadata including the owner of the asset. For example, if theproject or asset is owned by Movie Studio A, the metadata for theproject may identify Movie Studio A as the owner. In addition, the newfiles may comprise metadata including the territory that it isdesignated for, the asset type, the codec information, the encode nameof the asset, and the name of the project. In addition, a “preview” filemay be added to the system. A “preview” file is a file that may be addedto the import queue on the system, but is not available for other usersto view or access on the system until it has been verified and approvedby the system. The preview file may only be viewed or accessed by theuser who uploaded it to the system. Alternatively, the user maydesignate one or more than one users on the system who may havepermission to access the preview file. However, the preview file may notbe viewed by all of the users on the system until it has been approvedand verified. A preview file may be tagged with the word “Preview” inthe filename, and may be added to the storage area on the system. Thesystem may generate additional versions of each preview file. Forexample, the system may generate additional versions of each previewwhere each version has different bandwidth.

At 420, the localization process system uses the metadata to create anew temporary asset page. The system uses the metadata from the file tocreate a temporary asset page on the system for the user to view. Thetemporary asset page is an html page that is prepared and presented tothe user who uploaded the file, so that the user may verify the contentsof temporary asset page. For example, the system will present the userwith a temporary asset page showing the title of the project, a videopreview of the file, the territory that it is designated for, andsimilar metadata and asset specific information.

At 430, the user will verify and approve the temporary asset page. Theuser will verify whether the content on the temporary asset page iscorrect or not. The user will have an opportunity to modify incorrectinformation, resulting in updating the metadata corresponding to thatinformation, if such is seen. After the user confirms the accuracy ofthe information on the temporary asset page and approves of the content,a new asset, consisting of one or more than one file, is created basedon the correct metadata at 435. The new asset will include the correctmetadata so that the system can determine which project the new assetbelongs to.

At 440, the new asset is matched with a project. Here, the new asset ismatched with a project on the system using the metadata of the new assetto determine which project it should be matched with. For example, ifthe project is Movie A, and the new asset is an asset, such as a movietrailer, for Movie A, the metadata for the new asset will identify MovieA as the project name. Therefore, the system will scan the projectsstored on the system to identify the project that the new asset shouldbe associated with. Once the system locates the new project, the systemmay move the asset from a staging area in the storage area of the systemto a production area in the storage area on the system. In addition, thesystem may update a database to identify a new asset has been associatedwith the project and may include a hyperlink in the database to identifythe location in the production area where the asset is located.

At 445, the asset is encoded if necessary. When an asset is encoded, thesystem may create multiple files of the asset, where each file has adifferent encoding so that it may be used in different mediums ordifferent territories. For example, an asset may be encoded into an NTSCformat, or PAL format, or other similar formats for different broadcastmediums. In addition, the system may also create different encodes fortheatrical, broadcast or online mediums. In addition, the system maygenerate thumbnails when moving the files so that when a user hoversover a project or asset, they may see a series of frames. After thesystem encodes the asset, the system moves the encoded files of theasset into the production area on the storage area of the system. Thesystem may also update a database on the storage area to indicate thevarious encodes of the asset that exist and the locations for each ofthe encoded files of the asset.

At 450, after the asset, which is the original version, or a version tobe localized into another language, has been encoded and moved to theproduction area on the system, the system may create a script to allow auser to edit a project or translate a project. Specifically, the systemmay generate a timed-text script in English that may be used as a guidefor a translator to translate into another language for subtitling, orin the case of a dubbed version, translate on screen graphics. Thistimed-text script is associated with the asset so that when a userorders a localized version of an asset, this script will be transmittedby the system with the project to the user to create the localizedversion of the asset.

At 455, the system may create notifications to inform users on thesystem that a new asset has been added for a project. Notifications aregenerated when a system event occurs that corresponds to a user'snotification subscription. For example, a user that is subscribed to aproject named, “Movie A”, should be notified when a new asset for “MovieA” has been added or modified on the system. Therefore, at 455, thesystem will create a notification and inform all of the users who havesubscribed to the project that was updated, to receive a notificationthat a new asset has been added to the system. The system may achievethis by scanning the users stored in a database on the system, anddetermining which users have subscribed to the project that wasmodified. Once the system identifies those users, the system may createa new notification object for the user that has subscribed to theproject that has the new asset. The user will then receive anotification that a new asset has been added. The user may receive thenotification either with an email or when the user logs into the system.

At 460, the asset is available on the system for all of the users whohave permission to access it. A user may view the asset, or order alocalized version of the asset, if he has permission to.

Referring now to FIG. 5, a flowchart of a process performed by anordering assets engine, such as ordering assets engine 346 in FIG. 3, isshown. The flowchart 500 has both a start 505 and an end 595, but theprocess is cyclical in nature.

At 510, a user logs in. The process 500 begins when a user logs into thesystem at 510. The authentication engine, such as authentication engine311 of FIG. 3, will verify if the user is permitted to access thesystem. After the user logs in, the user selects a project or an assetthat they wish to order a localized version for. Again, the system willonly offer users to select projects and assets that they have permissionto access. When the user logs in, the system uses the user's operatingsystem settings to present the asset to a user based on the user'soperating system settings. For example, if the user is located inCalifornia, the system will assume that the user wants to navigate thesystem's interface in English, and will set the system time to PacificStandard Time. The system may also use the settings of the operatingsystem's user interface to determine the language for the user todetermine the available encode standards, such as NTSC or PAL, based onwhere the user is located. For example, if the user interface is set toFrance, then the user's default settings in the browser may beFrench/PAL. If the user interface is set to French Canada, then theuser's default settings in the browser may be “Quebecois AKA FrenchCanadian/NTSC”.

At 515, the user selects a desired language. The desired language is thelanguage in which the user desires to receive a new version of theproject or asset.

At 520, the user selects a desired date. Here, the user provides thesystem with a date by which the user requests the order to be completed.

At 525, the user selects preferences for the dialogue. Here, the userprovides the system with whether the user wants the dialogue to remainin the Original Version (“OV”), or whether to create a dedicated andlocalized version of the dialogue, or whether to create a subtitledversion of the dialogue. The user can select any of these options. Ifthe user selects OV, then the dialogue likely may remain the same in thelocalized version. If the user selects either a dedicated version of thedialogue, or a subtitled version, then the localized version willinclude the user's selections for the dialogue. If the user selects asubtitled version, the user may have the option to select who willprovide the subtitles. For example, the user may select himself, a3^(rd) party localization vendor, or a subtitling vendor to provide thesubtitles.

At 530, the user selects preferences for the graphics. Here, the userprovides the system with whether the user wants the graphics to remainin the Original Version (“OV”), or whether to create a dedicated andlocalized version of the graphics, or whether to create a subtitledversion of the graphics. The user may select any of these options. Ifthe user selects OV, then the graphics likely may remain the same in thelocalized version. If the user selects either a dedicated version of thegraphics, or a subtitled version, then the localized version willinclude the user's selections for the graphics. When a user selects adedicated or localized version of the graphics, the localized versionwill include graphics appropriate for the region selected by the user.

At 535, the user selects preferences for the narration. Here, the userprovides the system with whether the user wants the narration to remainin the Original Version (“OV”), or whether to create a dedicated andlocalized version of the narration, or whether to create a subtitledversion of the narration. The user can select any of these options. Ifthe user selects OV, then the narration likely may remain the same inthe localized version. If the user selects either a dedicated version ofthe narration, or a subtitled version, then the localized version willinclude the user's selections for the narration.

At 540, the user selects the usage format. Here, the user can selectwhether the localized version will be used to broadcast, or will be usedonline, or will be used in a theater. The format of the localizedversion will vary dependent on the usage of the localized version.

At 550, the user places an order for the localized version. After theuser makes the selections for the localized version, the user may submitthe order to the system. An example of a display allowing a user himselfto create a localized version with the user's own subtitles, can be seenin FIG. 7. Alternatively, the user may identify another person orentity, who the user wants to create the localized version. The user mayindicate this person by entering an email address for the person, orentity, into the system requesting that the person with the designatedemail address handle creating the localized version of the project. Forexample, if a user knows that a certain individual is proficient in acertain language, the user may request that the translations beperformed by this individual. The translations could be applicable tographics, to the dialogue or to subtitles. When the user places theorder, the user may be required to pay for the order of the localizedversion. The user may be charged based on the production cost for thelength of the project (for a dubbed version), or the production cost forthe length of the project (for a subtitled version), or for broadcastfiles, or for online files. The fees for the project may vary based onthese selections.

When a user places an order with the system, the system creates thelocalized version of the project by using the timed-text script that wascreated by the system, and which is described in FIG. 4. For example,the system may use the timed-text script to edit and create thelocalized version of the project. Alternatively, if the user requestedanother person to create the localized version, then the other user canutilize the timed-text script associated with the project, or asset, tocreate the localized version. If the user is requesting to modify thetranslation himself, the system may provide the user with a graphicalinterface to edit the timed-text script for the localized version of theproject.

At 555, the system receives the completed order. The selections the usermade regarding the order will be used as the metadata for the newlocalized asset that will be created. For example, if the user requestedsubtitles, then the metadata for the new localized asset will identifythat the asset has subtitles. If the user requested another person orentity to create the localized version, then the system will notify theperson who was requested to edit the asset to create a localizedversion. The person, or entity, who will edit the asset, will receivethe timed-text script to assist in creating the localized version. Afterthe person completes the edits, the system will receive the editedtimed-text script and will create a new localized asset using the editedtimed-text script. The system will create metadata for the new localizedasset so that the system can properly match the new localized asset withthe appropriate project on the system. After the localized version iscreated, the user will be notified via email that the order is ready.Alternatively, the user will be notified when he logs into the systemand sees a notification that his localized asset is available. Thelocalized version will be created based on the user's selections for thelocalized version of the project. After the localized version is createdand approved, the system may send the localized version to a destinationaddress that the user specified during the ordering process. The addresscan be a broadcast station, a 3^(rd) party vendor or an individual. Ifthe user specifies a destination address, then the system will send thelocalized version to the destination address, and then will inform theuser that the transfer to the destination address succeeded.

Referring now to FIG. 6, there is shown an example of a display 600 fora subtitle management system. Specifically, the display 600 shows theuser interface that a user, such as user interface 311 and the user 330in FIG. 3, can use to order a localized version of an asset or aproject.

The display 600 shows the user interface for ordering a localizedversion 610. As seen in the interface, the user will see the project 620for which the localized version is being requested. In addition, theuser will be able to select the language 630, the due date 631, the time632 and the time zone 633 for the localized version.

In addition, the user will be able to provide input regarding thedialogue and graphics 640 for the localized version. The user may selectto order only graphics for the localized asset, as seen in 647.Alternatively, the user may select to order graphics and narration forthe localized asset, as seen in 648. Alternatively, the user may selectother options for the localized asset, as seen in 649. For example, theuser may select Original Version (OV) 641, dedicated/localized version642, or subtitled 643 for any of the Dialogue 644, the Graphics 645 orthe Narration 646. The user may utilize the user interface to select thedeliverable information for the localized asset, as seen in 650. Forexample, the user may select the localized asset should be generated forbroadcast, as seen in 651. If the user selects that the localized assetwill be used for broadcast, the user may select the encodingappropriate, such as PAL, as seen in 653. Finally, the user may also adda person's contact or email, seen in 654, who the user wishes to receivethe localized asset after the localized asset has been created. The usercan specify an individual, or the user can specify a network. If theuser specifies a delivery address, then the system will deliver thelocalized asset to the delivery address, and then the system will notifythe user that the transfer to the delivery address succeeded.Alternatively, the user may select that the localized asset should begenerated for online viewing, as seen in 652. If the user selects onlineas the deliverable information, the user may also select the encodingtype. For example, the user in FIG. 6, selected “Full Set(1080p/720p/480p)” as seen in 655. Finally, the user may also identify aperson's contact or email information, seen in 656, who the user wishesto receive the localized asset after the localized asset has beencreated. The user can specify an individual, or the user can specify anetwork. If the user specifies a delivery address, then the system willdeliver the localized asset to the delivery address, and then the systemwill notify the user that the transfer to the delivery addresssucceeded. After the user makes the selections, the user may submit hisorder to the system to order the localized version.

Referring now to FIG. 7, there is shown an example of a display 700 fora localized process system. Specifically, the display 600 shows the userinterface that a user, such as user interface 311 and the user 330 inFIG. 3, can use to update the subtitles and create a localized versionof an asset or a project.

The display 700 shows the user interface for translating an asset for aproject, namely Project A, to English 710. As seen in the interface, theuser will see Project A 720 on the display. At 760, the user canidentify who will be providing the subtitles for the asset. For example,the user can select, “Me”, “Localization Vendor,” or “My SubtitlingVendor.” If the user selects himself, then the user interface will showthe user the dialogue of the asset. The user can then modify thedialogue as he chooses. For example, the user may see two columns, the“In/Out” column 740, and the “Caption” column 750. The In/Out 740 columnmay provide the time the dialogue appears in the project. The Caption750 column may show the dialogue for the movie in the original languagefor the project.

The display 700 shows how a user can create a localized version byupdating the subtitles for the project or asset. In the display 700, theIn/Out 740 column shows four time entries, namely “01:00:06.417” 741,“01:00:03.833” 742, “01:00:03.665” 743 and “01:00:03.083” 744. For eachof the time entries, the Caption 750 column shows the dialogue. Forexample, for “01:00:06.417” 741, the caption is “Is it sunny outside?”751. For “01:00:03.833” 742, the caption column states “Click totranslate” 752. This indicates that a user can update the caption andthen play the project and the project will show the updated caption atthe time shown in the In/Out column. In addition, for “01:00:03.665”743, the caption is “No” 753. Finally, for “01:00:03.083” 744, thecaption again states “Click to translate” 754. This again indicates thata user can update the caption and then play the project and the projectwill show the updated caption at the appropriate time.

After the user edits the dialogue, he can select to view his edits. Thesystem will stream the asset and show the user a preview of thesubtitles he added, or modified. This allows the user to confirm hismodifications are accurate, before ordering the localized version of theasset.

As seen in the display 700, Project A 720 shows the subtitle “Is itsunny outside?” 730. This is the caption that corresponds to 741 in theIn/Out column. Project A 720 shows the updated captions immediately.Therefore, the user can confirm the edits are appropriate and maintainthe integrity of the project after the translation.

Closing Comments

Although shown implemented in a personal computer, the processes andapparatus may be implemented with any computing device. A computingdevice as used herein refers to any device with a processor, memory anda storage device that may execute instructions including, but notlimited to, personal computers, server computers, computing tablets, settop boxes, video game systems, personal video recorders, telephones,personal digital assistants (PDAs), portable computers, and laptopcomputers. These computing devices may run an operating system,including, for example, variations of the Linux, Microsoft Windows,Symbian, and Apple Mac operating systems.

The techniques may be implemented with machine readable storage media ina storage device included with or otherwise coupled or attached to acomputing device. That is, the software may be stored in electronic,machine readable media. These storage media include, for example,magnetic media such as hard disks, optical media such as compact disks(CD-ROM and CD-RW) and digital versatile disks (DVD and DVD±RW); flashmemory cards; and other storage media. As used herein, a storage deviceis a device that allows for reading and/or writing to a storage medium.Storage devices include hard disk drives, DVD drives, flash memorydevices, and others.

Throughout this description, the embodiments and examples shown shouldbe considered as exemplars, rather than limitations on the apparatus andprocedures disclosed or claimed. Although many of the examples presentedherein involve specific combinations of method acts or system elements,it should be understood that those acts and those elements may becombined in other ways to accomplish the same objectives. With regard toflowcharts, additional and fewer steps may be taken, and the steps asshown may be combined or further refined to achieve the methodsdescribed herein. Acts, elements and features discussed only inconnection with one embodiment are not intended to be excluded from asimilar role in other embodiments.

As used herein, “plurality” means two or more. As used herein, a “set”of items may include one or more of such items. As used herein, whetherin the written description or the claims, the terms “comprising”,“including”, “carrying”, “having”, “containing”, “involving”, and thelike are to be understood to be open-ended, i.e., to mean including butnot limited to. Only the transitional phrases “consisting of” and“consisting essentially of”, respectively, are closed or semi-closedtransitional phrases with respect to claims. Use of ordinal terms suchas “first”, “second”, “third”, etc., in the claims to modify a claimelement does not by itself connote any priority, precedence, or order ofone claim element over another or the temporal order in which acts of amethod are performed, but are used merely as labels to distinguish oneclaim element having a certain name from another element having a samename (but for use of the ordinal term) to distinguish the claimelements. As used herein, “and/or” means that the listed items arealternatives, but the alternatives also include any combination of thelisted items.

It is claimed:
 1. An apparatus comprising a storage medium storing aprogram having instructions which when executed by a processor willcause the processor to: authenticate a user login for a localizedprocess system; present a user with a project, comprising an asset,wherein the asset is created for an original geographical territory;present a user with a display to order a localized version of the asset,wherein the localized version of the asset is a version of the assetthat is customized for a second geographical territory that is differentthan the original geographical territory; receive user input to createsubtitles for the localized version of the asset, wherein the userselects himself to enter the subtitles present the user with a displayof a timed-text script that displays a time of the asset, and thedialogue of the asset receive user input of a new subtitle that the userentered on the display generate a new timed-text script with the newsubtitle receive an order to create the localized version of the asset,wherein the localized version of the asset is created using the newtimed-text script.
 2. The apparatus of claim 1 wherein the asset is aninternational trailer for the movie.
 3. The apparatus of claim 1 whereinthe user selects to preview the asset with the new subtitle beforesubmitting an order for the localized version of the asset.
 4. Theapparatus of claim 1 wherein the asset is a red carpet interviewrecorded from a movie premier for the movie.
 5. The apparatus of claim 1further comprising receiving user input of new graphics for thelocalized version of the asset.
 6. The apparatus of claim 5 wherein theuser enters a new user's email address to provide the new graphics forthe localized version of the asset.
 7. The apparatus of claim 1 furthercomprising receiving user input to create the localized version of theasset for broadcast in PAL.
 8. The apparatus of claim 1 furthercomprising receiving user input to create the localized version of theasset for online viewing.
 9. The apparatus of claim 7 further comprisingreceiving user input of an email address for a person who will createthe localized version of the asset in PAL.
 10. A method comprising:authenticating a user login for a localized process system; presenting auser with a project, comprising an asset, wherein the project is amovie, and wherein the asset is created for an original geographicalterritory; presenting a user with a display to order a localized versionof the asset, wherein the localized version of the asset is a version ofthe asset that is customized for a second geographical territory that isdifferent than the original geographical territory; receiving user inputto create subtitles for the localized version of the asset, wherein theuser selects himself to enter the subtitles presenting the user with adisplay of a timed-text script that displays a time of the asset, andthe dialogue of the asset receiving user input of a new subtitle thatthe user entered on the display generating a new timed-text script withthe new subtitle receiving an order to create the localized version ofthe asset, wherein the localized version of the asset is created usingthe new timed-text script.
 11. The method of claim 10 wherein the assetis an international trailer for the movie.
 12. The method of claim 10wherein the user selects to preview the asset with the new subtitlebefore submitting an order for the localized version of the asset. 13.The method of claim 10 wherein the asset is a red carpet interviewrecorded from a movie premier for the movie.
 14. The method of claim 10further comprising receiving user input of new graphics for thelocalized version of the asset.
 15. The method of claim 14 wherein theuser enters a new user's email address to provide the new graphics forthe localized version of the asset.
 16. The method of claim 10 furthercomprising receiving user input to create the localized version of theasset for broadcast in PAL.
 17. The method of claim 10 furthercomprising receiving user input to create the localized version of theasset for online viewing.
 18. The method of claim 17 further comprisingreceiving user input of an email address for a person who will createthe localized version of the asset in PAL.